Condenser vent



7, 1939- 'A. M. GEORGIEV ET AL 2,178586 CONDENSEVENT Filed Oct. 17. 1936 Patented Nov. 7, 1939 S PATENT OFFICE CONDENSER VENT ton, hio, assignors ware Claims.

This invention relates to eleetrical condensers, and has to do with venting means for sealed containers wherein the condenser electrodes are immersed in a liquid medium, subjected to a wide 5 range of temperature variation and pressures.

An object of this invention is to provide an improved method of venting sealed containers that are subjected to interna] gas pressures under working conditions.

Another object is to provide a relievable seal for containers that will be maintained under normal conditions of operation, so as to prevent leakage of liquid.content, but will operate to re lieve excessive pressures before developing to the danger point.

Another object is to provide a relievableseal for electrical condensers that will eliminate al] leakage of liquid, and yet yield under increased interna] pressures during normal working cond1tions, but will be effective to relieve excessive internal pressures before the unit reaches the danger stage at which it might otherwise blow up.

' nother object is to provide a method of venting sealed containers before they reach the daneistage.

These several objects are accomplished by closing an aperture through the wall of an otherwise sealed container with a yieldable membrane 0 or stop, that is cemented in place, the stop being normally air tight, and fixed in position, but also being displaceable by pressure buildup within the container, so as to relieve excessive pressure within the container. A material is selected for the membrane that is inert as respects the liquid med1um With which the container 1s charged, and when the membrane is in place, it and the adjacent parts of the wall member are covered with an adhesive of volatile, liquid and non-crystalline characteristics, which, upon exposure to the atmosphere soon lave a cup-like -coating of air impervious material firmly adhering to the membrane and wall structure of the container with suflicient tenacity to maintain a seal for the con- 45 tainer throughout a predetermined range of pressure changes. Further objects and advantages of the present invention will be apparent from the following description, reference being had to the accom- 0 panying drawing Wherein a 'preferred embodiment et the present invention is clearly shown.

In the drawing: Fig. 1 is a top plan view of an electrical condenser involving the instant invention. Fiz.2isactionflvwihrohthe coveror 1 Alexander M. Georgiev and Paul F. Koehly, Bayto General Motors Corporation, Detroit, Mich., a corporation of Dela- Applicafion October 17, 1936, Serial No.106,098

lid assembly of the electrical condenser, substantially as 'indicated by the line and arrows 22 of Fig. 1.

Fig. 3 is a fragmentary view of a condenser unit in section, illustrating the features of the inven- 5 tion on an enlarged scale of about two diameters.

Figs. 4 to 8 inclusive, are enlarged views by about 7 diameters, illustrating the method of setting the seal, and the conditions of the seal under working conditions and when relieving 10 excessive pressure.

Specifically, Fig. 4 illustrates a step in the setting of the seal.

Fig. 5 illustrates the fiexibility of the seal in responding to the normal working pressures.

Fig. 6 illustrates the conditions of the seal under extreme pressures and at the point at which the seal is nearly ready to blow off.

Fig, 7 illustrates an advanced stage of the relief. feature as the seal is on its way in being bl0wn out.

Fig. 8 illustrates that stage in which the seal has been completely released and the high internal pressure is about to be relieved.

Electrical condensers when placed in circuit and subjected to the current potential undergo considerable changes of temperature, which re- .sults in a wide range of pressures. Under such conditions, whether thepndenser be of the wet type in which the electrodes are; immersed in or merely impregnated with a liquid medium, or of the dry type in which the medium is a soit, solid or thick paste, or whether the medium be of some 'intermediate state, the occurrence of electrolysis or the chemical action, or some physical change may result in considerable pressure being built up within the container. In some cases of electrolyte-less condensers, there has been noted a condition of very high pressure which, unless relieved, is liable to cause exploding of the con- 40 tainer, with destruction to the unit, and possible serions injury to the person. Therefore, subsequent use of the term liquid medium ls to be interpreted to inciude also those mediums of electrical c0ndensers with which the electrodes come into contact and forming the usual impregnations of the spacers, whether those mediums .be truly liquid, solid or paste-like, and whether they be electrolytes or dlelectrics. Should they accidentally or purposely become involved in electrolysis or other changes manifest by increased pressure, the need for a satisfactory vent will be present, and the proposed construction will provide the desired relief. Hawever, the real need for a venting means occurs in every instance where any degree of electrolysis occurs in the completed sealed condenser. There are in the prior art vents, or reliefs as they may be called, that take into account these pressure chambers to some extent. These vents usualiy consist of a thin rubber membrane sealed in place, but which have been pierced so as to provide a normally closed aperture, and which upon increase of pressure will stretch or flex to permit opening of the aperture and allow the escape of the gas. Vents of this type are always attended by more or less leakage of the liquid medium through the very small aperture of the diaphragm, which leakage may result in corrosion of the parts, and possible damage to the electrodes, if the condition becomes aggravated.

With particular reference to the drawing i8 indicates the lid or cover of an electrical condenser adapted to mate up With a receptacle sa to provide a sealed casing or container for enclosing the vital parts of the condenser. Disposed within the receptacle is a condenser body l6 made up of inter-leaved or stacked electrodes and spacers, all as is Well known in the art. The condenser body, or rather the electrodes thereof are provided with connectors or straps 5 by Which electrical communication is marie to exposed elements 18 of terminal poste 28 secured in the lid member i !3 in the preferred manner. One

such method is by grooving an intermediate portien or? the terminal as at 22, and then setting the members within a mold so as to cast the lid member m thereabout. The lid may also incorporate other inserts as 24, to be used as junction terminals, and a threaded sleeve 28 for securing a shield or other member to the lid, so as to close ofi a terminal compartment.

Since it is desirable to prevent leakage oi? the liquid contents from within the interior of the receptacle, means are provided at the contiguous portions of the lid Il) and receptacle l2, so that there will be a close fit provided, and so that a sealing ring 28 as of rubber may be inserted. In the present instance these provisions constitute a peripheral rib 30 on the under side of the lid and spaced inwardly from the edge of the lid, so as to. leave a fiat surface which may be grooved at 32 to form a circumferential recess. The terminating edge of the receptacle l2 is likewise grooved at 34, which, with the groove32 of the lid receives the extruded portion of the ring 28, when the lid Il! is clamped in place, and secured or held by the clamp ring 38, all of which is shown in detail in Figs. 1 and 3.

The improved relief or venting means constitutes a stepped bore with a closure member therefore substantially as indicated at 48 in Figs. 1, 2 and 3. Referring particularly to the large scale views. the counterbore comprises a portian of reduced diameter 42 openingto the in terior of the sealed container, and joining an enlarged portion 44 by a plane-like shoulder 48, the larger portion 44 of the bore opening to the exterior of the container. The vent or relief means may be set in position either before or after the lid is secured to the receptacle, but it is preferred that this step be perfeoted before hand. In either instance, the venting means is set according to the following procedure. With the lid member l0 lying fiat upon the bench or table, so that the enlarged aperture 44 is opening upwardly or toward the zenith. a thin dise or membrane 48 is placed in the larger portion 44 of the counter-bore so that it rests upon the shoulder 46, whichresults in a cup-like recess in highly volatile nature.

the lid In formed by the side walls of the aperture 44 and the dise or membrane 48. This recess s0 formedis thence filled substantially level full with a cernent or adhesive 50, of a thin and The dise or membrane 48 acts sufiiciencly as a stopper to prevent the cernent 50 from leaking or running through to the smaller portion 01. the aperture 42. The lid Il! with the seal so set is then allowed to stand until the liquor or solvent of the cment has evaporated, which will result in a seal of the nature disclosed in Fig. 3 of the drawing where the member 48 is overlaid with a cup-like plug 52 adhering to the upper surface of the disc 48 and the side walls of the aperture 44.

While Figs. 5 to 8 inclusive illustrate various stages of the seal or venting means during its pressure relieving iunction, or while it is being biown out, those views are convenient tu refer to for urther describing the seal that is prefected. Referring to Fig. 5 in particular, and taking into account that the disc 48 is pressed fiat against the shoulder 45, and is generally unflexed. as more particuiarly illustrated in Fig. 3, then a clear perception may be had of the relief means aiter it has been set, and before the internal pressure has aiected it to the extent that is shown in Fig. 5. The seal will then appear substantially as shown in Fig. 3 of reduced scale. ter the seal has been allowed to stand until the solvant bas completely evaporated from that condition illustrated in Fig. 4. the solid matter in the cernent taizes the form of a deep drawn cap .52, which is illustrated in the large views 5 to a, wherein a relatively thick covering 54 extends over the upper surface of the disc 48 and thence terminates at its edges in an upwardly extending flange 56 of tapered cross section, there being a substantially greater thickness of material at the juncture of the disc 48 and the 'side walls of the aperture 44 as is illustrated at 52. Due to the character of the materials that are selected for the lid Il), the disc 48 and the seal 52, there will be considerably greater adhesion between the layer 54 and the disc 48 than between the layer 56 and the material l0 forming the side walls of the aperture 44.

By taking into account the surface area of the enlarged aperture 44, the ingredients and the proportions of the oement to be deposited in the receptacle, the characteristics of the venting means can be predetermined, and a.seal can be provided that will relieve internal pressures under predetermined conditions.

In a specific instance of condenser manufacture where an electrolyte of glycerin and ammonium acetate is used, a material suitable for the membrane or disc 48 is found to be a good quality of varnished paper of .007 inch thickness, it being substantially inert as respects the electrolyte specified. The cernent that is found clesirable, and which will give iworking pressure between 25 to 35 pounds per square inch. consists of 18 parts of a Celluloid solvent, such as that now known commercially under the trade name Duco thinner. to one part of Celluloid. While Duco thlnner has been specifled, any other thinher or solvant for. nitrocelllose material having the same or similar charactistics as to rapid evaporation is contemplated. Where it is desired to increase the working pressure to about 50 pounds per square inch these same ingredients are mixed in the proportions of about 13 to 1.

- Cements or adheslves of this character are of non-ttrystalfine make-up so as to leave an air 18 impervious coating upon evaporation of the solvent, and yet are of suficient liquification to readily flow into the recess 34 and make contact with all of the exposed surfaces. When the thinner or soivent of the cernent is allowed to vaporize the solidified material extends in a continuous integral coating over the walls of therecess 44, resulting in a cup-like plug whose bottom wall 52 firmly adheres to the disc 48 and whose side Wall 56 firmly adheres to the cylindrical surface of the bore 44.

While a specific example has been set out of the materials used for the membrane and the cernent that are desirable for an electrical condenser characterized by the stated liquid medium, and enclosed in a container of molded composition, applicants do not intend to limit the invention to constructions of the specifled ingredients. It is contemplated that if liquid mediums or other ingredients are to be used, for instance electrolytes incorporating ethanolamine, it may bc desirable to select a material for the disc 48 other than varnished paper. A]so it may be desirable to use a material for the disc 48 other than a paper or equivalent material or .007 inch in thickness. Similarly, if Bakelite, metal, or vulcanized fiber be adopted for the lid Il), it may then be desiratgle to use some other cernent and in other proportion than that hereinabove specifled.

With an electrical condenser so constructed and sealed as hereinabove set forth, which is shown in Fig. 3, it. will be appreciated that the condenser body I4 with its liquid medium is enextent that it is completely isolated from the effects of outside air by the yieldable venting means 40. Due to the character of the assembly, there is provided an air space 80 above the condenser body 14 and beneath the lid 10 and which extends into the smaller portion of the bore 2. This space 80 acts somewhat as an expansion chamber for the condenser unit, inasmuch as the gaseous pressure within the container varies somewhat during the.iife of the condenser. During normal temperatires, and while the unit is on the shelf, the pressure within the chamber 60 will be substantially equal to atmospheric pressure. But when the unit is placed in service electrical charges upon the electrodes of the condenser will result in raising the temperature of the elemnts within the container. which results in an increased pressure of the gas within the chambrer fil). Undr normal working conditions the sealofthe condenser provided by the disc 48 and the,cement will maintain the unit sealed as respects the outside air. In maintaining this seal the disc 48 and its cup 54 will yield somewhat as a diaphragm in responding to the increased pressure Within the container, substantially as is indicated in Fig. 5. In 50 doing the disc 48 and the bottom wall 54 of the cup will flex or bow outwardly and upwardly to produce something like a crowning effect, while the flange portions 56 of the cup will flrmly adhere to the walls of the larger aperture 44. The arrows m have been appiied in Fig. to indicate the pressure as acting upon the disc or diaphragm 48 during the normal working conditions.

When the pressure within the condenser becomes excessive, that will be manifest by greater pressure exerted upon the disc 48 and its retaining cup, as exemplifled by the increased number of arrows 12 and 14 in Figs. 6 and 7. In Fig. 6 there is an attempt to illustrate the conditions closed within the receptacle I! and lid to the of the seal at that time at which it is just break ing loose from the lid Il! due to the increased pressure. The excessive pressure beneath the disc 48 bows up or crowns the same to a greater extent than is illustrated in Fig. 5. This in-. creased bowing or flexing of the disc 48 tends to pull in the edges 49 of the disc and retract them from the wall 44 of the enlarged bore. Since the adhesion between the bottom of the cup 52 and the disc 48 is greater than is the adhesion between the side wall 58 of the cup and side wall of the bore 44, the result is that the cup 52 is peeled away or freed from the wall of the aperture 44, substantially as is indicated at [6. As is illustrated in Fig. 6, the loosening of the cup side walls from the lid [0 has advanced sufficiently far to permit the venting assembly to start on its outward movement through the larger bore 44. In Fig. 7, it will be observed that the venting assembly is well on its way out and is about ready to blow out. In Fig. 8, an attempt has been made to illustrate the final step in relief of the pressure, and in whicl; the venting assembly is substantially free from the lid member ID and the pressure is being relieved as is indicated by the increased number of arrows 18.

It is to be understood that the pressure relief, or that the condition resuiting and diagrammatically illustrated in Fig. 8 is pra'ctically instantaneous, rather than gradual as might be interpreted by the detail illustrations. Once the working pressure within the container increases beyond the predetermined value. or increases above that stage at Which the venting assembly will respond with its yieldable function as illustrated in Fig. 6, the pressure relief function illustrated by the succeeding views in Figs. 6, 7 and 8 is comparatively sudden. Once the side walls 56 of the cup begin to free themselves or peel away from the wall 44 of the lid, the force tending to retain this venting assembly in place is diminished, resulting in the rapid outward movement of the venting assembly. Taking into account the strength of materials, the force of adhesion, the surfaces involved, and the pressures to which the parts are subjected, the venting piug assembly is so characterized as to be the weakest point of the enclosing structure. As a result, upon marked increase of pressure within the container the venting assembly will relieve the internal pressure when it becomes excessive, but before it .becomes sufiiciently high t0 result in rupture or destruction of the container.

While the embodiment of the present invention as herein disclosed, constitutes a preferred form, it is to be understood that other forms might be adopted, all coming within the scope of the claims which follow.

What is claimed is as follows:

1. In an electrolytic condenser having a sealed container, the combination of a pressure vent comprising, a wall member having a counterbored aperture, an impervious disc seated against .a shoulder of the counter-bore, and a cup of colloidal material tightly adhering to the disc and side walls of the counter-bore.

2. The method of forming a vent for a. closed container, comprising the stepsin combination, providing a counter-bored aperture through a wall of the container so that the langer part of the bore is accessible from the exterior thereof, placing a diaphragm member in the larger part of the bore to substantially close the aperture, filling the recess formed by the larger part of the bore and the diaphragm with a liquid coiloidal adhesive, and permitting the solvent of the adhesive to evaporate leaving a confins of solid material on the exposed surfaces et the larger part of the bore and the diaphragm.

' 3. The method of forming a vent for a closed container, comprising the steps in combination, forming a. reduced aperture opening to the interior of the container, closing off the aperture by inserting a. dise of relatively thin material, and fliling the recess thus formed with a highly volatile liquid adhesive.

4. In a. sealed container, a vent comprising in combination, a wall member providing a stepped bore, a membrane in the larger part 01 the bore, and a noncrystailine cement having a non-volatile constituent forming a. continuous continu on the sides of the Iarger bore and the surface of the membrane.

5. In a sealed container. a vent comprising in combination, a wall member having an aperture therethrough ending in, a. counter-sink, means in i the counter-sink for closing the aperture, and means seaiing the aperture against free tiow around the closing means. comprising a nonvolatfle residue eflected upon evaporation o! a liquid Celiuioid solution, said reaidue forming a 1 continuons coating on the side walls 01 the counter-s1nk and the adjacent surface of the closing menus.

AIXANDER M. GEORGV. PAUL F. KOEHLY. 1 

